Thermo-electric generator.



q. 3733,652VA Fa'end Wav. 558;, 39M. l. KWSEE. l

THEEFO'ELECUHC G. (Application med Feb, 9, 1900, Renewed Apr. 19, 190m 2 shaets-sheet 1.

No. 73,652. Patened v. i3, B902. i. KWSEE. v

THEEELEG'E'HQ (Applctian med Feb. 9, 1909. Renewed. Apr. 19, 1902.)

W w u m ing is a specification.'

UNITED STATES PATENT ISIDOR yKITSEE; oF PHILADELPHIA', #PENNsYLvnNI- yTHEmvlo-ELECTRIC, G ENEB TQR.

srEcrFIcA'rIoN forming pere ef Letters Petercam, 713,652', dated Neeemb'ei 1s, 1902;

, Appnee'eien mea rebreeey 9,1900. Renewed Apei119.19o2. sentire, 103,871. utmeael.)`v A Pennsylvania, have invented lcertain new and useful Improvements in Apparatus for Ther. mo-Electric Generators, of which the follow- My invention relates to thermo-electric generators, and has for its'` object the production of a-thermo-electric generator economical in its Working and simple in its construction. To accomplish this; I have recourse to the method and arrangement as'hereinafter specified, and more particularly pointed out 'in the feS claims following this specification.

In so-called'thermo-electric cells the cnr. rentof electricity is generated through the action of h eat on the junction of two metallic bodies the opposite ends of whicheare pro! tested from the ininence of the heat, and a device such as a thermo-ce1l,wher e the metallic junction is the disturbed medium, should only be capable of generating a clirrent of very low potential, and, in reality, the electromotive force of the best constructed thermo-cell is only a small fraction-of the voltage a Daniel celly is capableof giving. I may add here that as in frictional machines the glass plate is the real agent of generating the current, its molecular cha nges,due to friction being the cause of the developed electrical energy,so the molecular changes of the steam- 4in the hydro-electric machine and the conducting-coils of an armature of a dynamic machine maybe considered' as the developing or activeagent, and the electrolyte in a'. chemical cell, or the heated junction in a thermo-cell.

All devices named as generators of electricity, are alike in the respect that they must have a medium capable of undergoing molecular changes, and the only -dierence between them is that the friction-machine has, for instance, a glass plate, for which steam is substituted `in the hydrofrictiorl-machine and metallic` coils are'substituted in theldynamic" machine, so aqua solutions aresubstituted in the chemical cell and heated metv als 'in the thermo-cell.

' lIf -two metals-say one an moiiy and the other the alloy of bismuth-be .joinedtogether on one hand and the -joined which possesses in itself the Watei` of crystalftates of 'other `metals or metallic salts other i 'than acetates can be employed-without d evheated at one junction arecapable of indi their point o filjuncti'ouin such away-*a separating medium, or a material, the resi 'ance-of which changes with a change of te medium. So, also; may-the twoimetals e. l

other.

alloy of anti-1 l sole sources for generatingv the corren-ty!) endsbe heated, avery feeble current)of elec-Qi?- i tricity will be developed; lbut if ethesejoined endsbe separated and a crystalline compoundl 5 5 e ization -be interposed between the separated ehds Aand the junction isagain vheated thelformerly feeble current will `now be acurrent j, of comparatively great intensity or potential, 6o f and my experiments have also shown that l such potential dependson the diierencepf the metalst'o be heatedfand also on'theena-l ture of the crystalline compound and also i5 e, uponthe temperature employed. My,ex,. periments have also Ashown .that acetate of: soda initscrystalline state iswell adapted for the intervening "medium between the two?V junctions; but I do not wish ,to.limirmyse1f 1 to the employmentlof acetate of soda,'as;ace 7ov parting'from myV invention ;.and as tofthe.. metals it is Wellkiown that. all metallic bodiesfare more or'fless adapted to serve in I thermobatteries.' e

In carrying-out my invention differen means may be employed--as, rfor instance, thel device` may consist of two metals whichfi eating different potentials, and a crystalline compound maybe added. to these metallsiatl` f constitute a separating medium between-.fsa f metals at the place where the heat is applied, 8'5 or a porous medium of higher resistanceithan the metals themselves may be saturated ywit a crystalline compound and be used as' t perature, maybe employed 'as a,s eparat i shaped so as to iform jacontainingvessel,vr porous partition.dividingsaid'contaiiiig ves selintotwo compartnentsyandeach co' part g5,- ment be filled'-wth .a crystalline compo-n n 1 possessing chemical properties'differeiit f ro each otherorfapable of reacting jupon eac In th'erfwords, adevice `mayb'zl 'co structed in' which only the heatingei the different metals plus 'the changel the heatingk of the crystalline material heating effects of the metals plusrthe heatin and chemical changes due to thepresence of ornaat c..r Each the crystalline structure may be utilized in the generation of electric currents, or such generation may be due-to the heating effects of the metals as well asthe chemical reaction of one crystalline compound on one of the metals or two crystalline compounds upon each other. The device can therefore be used as a thermo-generator pure and simple or as a thermo-chemical generator. l

One of the objects of my invention, therefore, being to vary the intensity or electromotive force of a thermo-electric generator, the same may becarried into effect by means of the arrangement, as illustratedin the aocompanying drawings'and particularly pointed out in the claims, forming part of thisy specification. g

' Referring to the drawings, Figure 1-isa plan 'view of'a device embodying my invention. Fi'gQ2 is a sectional view on the line a: of Fig. 1. Fig. 3 isa plan view of a modi-b fied `forni 'of device embodying my invention, and Fig.' 4 is a sectional view of suchmodilcation on the ,line 'y'y'ef Fig. 3. Fig. 5 is a perspective view of a device embodying my invention in `which two did'e'rent crystalline compounds areemployed. v. Fig. 6 is a perspective view of a device in which but one crystalline compound is employed. Fig. 7 is a sectional elevation vof a dvice in which threel devices Vsimilar to that shown in Fig. 6 are combined. Fig. 8 is a front elevation of a modiieddevice. .i

In FigsLl and 2,'which illnzfitrate the device as an en'ti'retyconsisting of a number of in dependent generators connected together through'paltt 0f their length in a material D capable of withstanding the action of `heat-- such, for instance. as fire-clay. The whole may then.' be,encircl'uiv by a frameor supportE and placed onI a supportingrstandl? over a source l pairofl tubes are electrically connectedtothesncc'eedingpair.through-the metallicjcontactc.- In thisdeviceat normal; temperature; no electricalenergy wi.4 be developed; but as soon las the. j unc'tins of the diiierentftnbesarelheatedfaQdiierence of potential-ifs inanifestedgbetween'the outer.y tubes" and their correspondinginner tubeS,(it being' understood that the llnetalzof; thefouter tubes differs'. ini its compositionfrom the metal-ot' the innertubes,) at thesamentinie thecrystalvl.- Althermo-electric cell.

line compound melting and in part penetrating the porous insulating compound not only affords a path for the current between the outer and inner tubes, respectively, but also av s to the intensity of the current. In this d vice the heat may be made to impnge only upon the lower part of the tubes, and insuch case the lower part of the space of the inner tubes should be closed by the reproof ma-f,Y terial D, or a solid metallic rod may be substituted in such case for the inner tubes, as shown in Fig. 2 at A2, or the inner spaces of the inner tubes may be left free and the heat be allowed to im pinge upon the surface thereof throughout any part of their length.

In Figs. 3 and 4 the double tubes of Figs. l and 2 are replacedV by one tube composed of two half-tubes A and A', separated from eanh other by the dividing medium B and provided also Wi th a crystalline material C. A number of such tubes are held in position by the intervening reproof materialD. As is illustrated in Figs. 1, 2, 3, ande, respectively, the generatingdevices in theformer gures are in a vertical and in Figs. 3 and 4 in a horizontal position.-

In the last-n`amed figures, His the space or opening for the flame or heat of the heating device In Fig. 5 the device consists ofq-the receptacle A and A', having a dividing-partition B., said partition being of porous material and d ividingthe inner space into two compartments, each of these compartments being filled with a different crystalline material C C', one half of the containing box or vessel con- IOO stituting the positive sign and the other half the negative sign of the cell or battery. It

one junction of the vessel be heated, the difference of potential will not only be equal to the diiference in the metallic junction, but will also include the difference of potential developed by the two crystalline compounds upon eachother, and it is obvious if only the potential developed bythe action of the two compounds upon eachothershould' be ntilized then the two parts of the vessels may be of the same metal.

In Figs. 6 and 7, where A is the vessel, C is the crystalline compound, A the metallic cover for vessel A, B the .porous dividing medium between A andA.A

, In Fig. 8, A A represent two metallic bars, and C a piece of selenium separating the bars A A at their point of junction.

Having thus described myinventionnwliaty I claim as new,andy desire to secure by Letters Patent, is- @M i, consisting, of two' conductors, and interposed between lthernra. material'normally v in its solid state but meltinghin its water of crystallization, it subjected to at.

material being impregnated with a lmaterial 2. A thermo-electric cell consistingof a ma;7 3o

terial of comparatively high resistancesaid capable of 'melting in its Water of crystallization, and a positive and negative electrodein contact with said material of high resistance. 3. A thermo-electric cell consisting of a porous material impregnated with a material oa- 4. A thermo-electric cell consisting of two zo conductors, separated bya material solid and non-conducting at a low temperature, but uid and conducting at a temperature higher than the normal.

In testimony whereof I hereby sign my name, in the presence of two subscribing wit- I 5 nesses, this 5th day of February, 1902.

ISIDOR KITSEE. Witnesses:

EDITH P. STILLEY,

A A. F.4 RUTHERFORD. 

